Monad Transformers
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There are currently two sets of packages that implement similar interfaces to monad transformers, besides a third package with a similar goal but different API named MonadLib:
- MTL - Monad Transformers Library: provides concrete monad transformers like
StateT
and abstractions using multi-parameter type classes with functional dependencies likeMonadState
. Monads likeState
and their transformer counterparts likeStateT
are distinct types and can be accessed uniformly only through a type class abstraction likeMonadState
. Because of the functional dependencies, MTL can currently (2010-03) only used in Hugs and GHC. MTL was the first implementation. - The newer implementation is derived from the former one and is split into the following components:
- transformers: Provide only concrete transformers like
StateT
. The monadState s a
is only a type synonym forStateT s Identity a
. Thus bothState
andStateT
can be accessed by the same methods likeput
andget
. However, this only works, ifStateT
is the top-most transformer in a monad transformer stack. This package is Haskell 98 and thus can be also used with JHC. - monads-fd: Provides the same type classes with functional dependencies like MTL. They allow using
State
methods also forStateT
transformers within a transformer stack. - monads-tf: Provides a different abstraction using type families. Unfortunately the names of
monads-fd
andmonads-tf
clash,
- transformers: Provide only concrete transformers like
thus you can currently not import both packages in one package.
How can I use MTL and transformers together?
Shall I use MTL or transformers?
How to move from MTL to transformers?
Any package using MTL
can be ported to transformers
and monads-fd
with only slight variations.
Modules require the Trans
infix,
e.g. import Control.Monad.State ...
must be replaced by import Control.Monad.Trans.State ...
.
Since State
is only a type synonym, there is no longer a constructor named State
.
For constructing you must use the function state
and instead of pattern matching you must call runState
.
See also
- Monad Transformers Explained
- http://www.haskell.org/pipermail/libraries/2009-March/011415.html
- http://www.haskell.org/pipermail/libraries/2009-December/012914.html
- http://www.haskell.org/pipermail/haskell-cafe/2010-January/071842.html
- http://www.mail-archive.com/debian-haskell@lists.debian.org/msg01241.html